JMIR Medical Education

Technology, innovation, and openness in medical education in the information age.

Editor-in-Chief:

Blake J. Lesselroth, MD MBI FACP FAMIA, University of Oklahoma | OU-Tulsa Schusterman Center; University of Victoria, British Columbia


Impact Factor 3.2 CiteScore 11

JMIR Medical Education (JME, ISSN 2369-3762) is an open access, PubMed-indexed, peer-reviewed journal focusing on technology, innovation, and openness in medical education.This includes e-learning and virtual training, which has gained critical relevance in the (post-)COVID world. Another focus is on how to train health professionals to use digital tools. We publish original research, reviews, viewpoint, and policy papers on innovation and technology in medical education. As an open access journal, we have a special interest in open and free tools and digital learning objects for medical education and urge authors to make their tools and learning objects freely available (we may also publish them as a Multimedia Appendix). We also invite submissions of non-conventional articles (e.g., open medical education material and software resources that are not yet evaluated but free for others to use/implement). 

In our "Students' Corner," we invite students and trainees from various health professions to submit short essays and viewpoints on all aspects of medical education, particularly suggestions on improving medical education and suggestions for new technologies, applications, and approaches. 

The journal is indexed in MEDLINEPubMed, PubMed Central, Scopus, DOAJ, and the Emerging Sources Citation Index (Clarivate)

In 2024, JMIR Medical Education received a Journal Impact Factor™ of 3.2 (Source: Journal Citation Reports™ from Clarivate, 2024). 

JMIR Medical Education received a Scopus CiteScore of 11.0 (2024), placing it in the 97th percentile (#46 of 1620) as a Q1 journal in the field of Medical Education.

Recent Articles

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Research Letter

Summary Sentence: Bing Chat (subsequently renamed Microsoft Copilot), a ChatGPT 4.0 based Large Language Model, demonstrated comparable performance to medical students in answering essay-style CAPPs, while assessors struggled to differentiate AI from human responses. These results highlight the need to prepare students and educators for a future world of AI by fostering reflective learning practices and critical thinking.

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Graduate and Postgraduate Education for Health Professionals

Although the training course of electrocardiogram (ECG) interpretation was started early in medical school, the accuracy in interpretation of 12-lead ECG is always a challenge issue. We conducted a pilot educational program to compare the effectiveness of a conventional didactic lecture, self-drawing (SD), and self-drawing following a flipped classroom approach (SDFC).

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Student/Learners Perceptions and Experiences with Educational Technology

Doctor-to-Doctor (D2D) is a mobile learning app that aims to support continuous learning in health care, commonly known as continuing medical education. One of the metrics of success in mobile learning is the average amount of time spent each month on the app, which is a component of stickiness, the tendency of users to use apps repeatedly. Stickiness metrics are important because stickiness has a direct effect on user retention.

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Reviews in Medical Education

A virtual simulated placement (VSP) is a computer-based version of a practice placement. COVID-19 drove increased adoption of virtual technology in clinical education. Accordingly, the number of VSP publications increased from 2020. This review determines the scope of this literature to inform future research questions.

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New Methods and Approaches in Medical Education

The traditional history and physical (H&P) provides the basis for physicians’ data gathering, problem formulation, and care planning, yet it can miss relevant behavioral or social risk factors. The American Medical Association’s “H&P 360,” a modified H&P, has been shown to foster information gathering and patient rapport in inpatient settings and objective structured clinical examinations. It prompts students to explore 7 domains, as appropriate to the clinical context: biomedical problems, psychosocial problems, patients’ priorities and goals, behavioral history, relationships, living environment and resources, and functional status.

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Artificial Intelligence (AI) in Medical Education

Programmatic assessment supports flexible learning and individual progression, but challenges educators to develop frequent assessments reflecting different competencies. The continuous creation of large volumes of assessment items, in a consistent format, in a comparatively restricted time, is laborious. To address this challenge, the application of technological innovations, including artificial intelligence (AI), has been tried. A major concern raised is the validity of the information produced by AI tools, and if not properly verified, can produce inaccurate and therefore inappropriate assessments.

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Reviews in Medical Education

Understanding the roles and patient management approaches of the entire oncology team is imperative for effective communication and optimal cancer treatment. Currently, there is no standard residency or fellowship curriculum to ensure delivery of fundamental knowledge and skills associated with oncology specialties with which trainees often collaborate.

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Artificial Intelligence (AI) in Medical Education

Artificial intelligence (AI) systems are becoming increasingly relevant in everyday clinical practice, with FDA-approved AI solutions now available in many specialties. This development has far-reaching implications for doctors and the future medical profession, highlighting the need for both practicing physicians and medical students to acquire the knowledge, skills, and attitudes necessary to effectively use and evaluate these technologies. Currently, however, there is limited experience with AI-focused curricular training and continuing education.

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Continuing Medical Education (CME) for Doctors

Alzheimer’s disease (AD) presents significant challenges to healthcare systems worldwide. Early and accurate diagnosis of AD is crucial for effective management and care to enable timely treatment interventions that can preserve cognitive function and improve patient quality of life. However, there are often significant delays in diagnosis. Continuing medical education (CME) has enhanced physician knowledge and confidence in various medical fields, including AD. Notably, web-based CME has been shown to positively influence physician confidence, which can lead to changes in practice and increased adoption of evidence-based treatment selection.

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Preliminary Experiences with New Educational Technology

Standardized patients (SPs) have been crucial in medical education, offering realistic patient interactions to students. Despite their benefits, SP training is resource-intensive, and access can be limited. Advances in artificial intelligence, particularly with large language models like ChatGPT, present new opportunities for virtual SPs, potentially addressing these limitations.

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Reviews in Medical Education

Telemedicine is a key element of modern healthcare, providing remote medical consultations and bridging the gap between patients and healthcare providers. Despite legislative advancements and pilot programs, the integration of telemedicine education in Romania remains limited. Addressing these educational gaps is essential for preparing current and future medical professionals to effectively use telemedicine technologies.

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Preprints Open for Peer-Review

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